引用本文:
Qi FANG, Hong LEI, Wen XU. Towards Single-component Molecular Conductor[Ni(dmit)2] by Charge Disproportionation:2[Ni(dmit)2]-0.5→[Ni(dmit)2]+[Ni(dmit)2]-[J]. Chinese Chemical Letters,
2003, 14(11): 1109-1112.
Citation: Qi FANG, Hong LEI, Wen XU. Towards Single-component Molecular Conductor[Ni(dmit)2] by Charge Disproportionation:2[Ni(dmit)2]-0.5→[Ni(dmit)2]+[Ni(dmit)2]-[J]. Chinese Chemical Letters, 2003, 14(11): 1109-1112.
Citation: Qi FANG, Hong LEI, Wen XU. Towards Single-component Molecular Conductor[Ni(dmit)2] by Charge Disproportionation:2[Ni(dmit)2]-0.5→[Ni(dmit)2]+[Ni(dmit)2]-[J]. Chinese Chemical Letters, 2003, 14(11): 1109-1112.
Towards Single-component Molecular Conductor[Ni(dmit)2] by Charge Disproportionation:2[Ni(dmit)2]-0.5→[Ni(dmit)2]+[Ni(dmit)2]-
摘要:
A new method of synthesizing single-component molecular conductor[Ni(dmit)2] by the reaction 2(Me4N)[Ni(dmit)2]2→[Ni(dmit)2]+(Me4N)[Ni(dmit)2] is reported.[Ni(dmit)2] exhibits a semiconductive behavior above 167 K, while from 167 K down to the measuring limit of 60 K, it exhibits metallic conductivity.
English
Towards Single-component Molecular Conductor[Ni(dmit)2] by Charge Disproportionation:2[Ni(dmit)2]-0.5→[Ni(dmit)2]+[Ni(dmit)2]-
Abstract:
A new method of synthesizing single-component molecular conductor[Ni(dmit)2] by the reaction 2(Me4N)[Ni(dmit)2]2→[Ni(dmit)2]+(Me4N)[Ni(dmit)2] is reported.[Ni(dmit)2] exhibits a semiconductive behavior above 167 K, while from 167 K down to the measuring limit of 60 K, it exhibits metallic conductivity.
扫一扫看文章
计量
- PDF下载量: 4
- 文章访问数: 803
- HTML全文浏览量: 13
下载:
